The research focuses on improving charge performance of stand-alone solar PV power generation system by using supercapacitor(SC)-battery hybrid energy storage system. The study includes four parts. First, discuss difference between linear disturbance dynamics models of hybrid energy storage systems. Second, carry out outdoor field test. Third, simulate property of the systems. Fourth, analyze how to design the best system. We discuss difference between linear disturbance dynamics models of hybrid energy storage systems. The results show that impedance of the system with larger farad SC is lower in dynamic. So combining lead-acid battery with SC in parallel would improve PV power generation. After long-term comparative test, daily data shows that the system with SC increase power generation and the system with larger SC increase more power generation. Long-term data shows that the system with SC can increase power generation if solar irradiation is greater than 10 MJ/m^2day and with 25F、58F and 288F supercapacitor can average increase the daily power generation by 1.5%、12.2%、19.0% at solar irradiation >10 MJ/m^2. The elements of system were simulated by subsystem then comparisons of simulated and data of outdoor field test is similar. Finally, we analyze how to design the best system by using simulation. The result shows 70F SC is best for the system. Because supercapacitor is still expensive, we have to continue to study how to enhancing cost/performance ratio of super-capacitors.